Cardiovascular health and life expectancy with and without cardiovascular disease in the middle-aged and elderly Chinese population

Background High cardiovascular health (CVH) was associated with lower risk of cardiovascular disease (CVD) and longer life expectancy. However, whether life years lived without CVD could increase faster than or at least at the same pace as total lifespan remains unknown. We aimed to explore the associations of CVH status with total life expectancy and life years lived with and without CVD among middle-aged and elderly men and women. Methods We included 65,587 participants aged ≥ 45 years from Kailuan study, who were recruited during June 2006 to October 2007. CVH was scored and classified (low [0–49 points], moderate [50–79 points] and high [80–100 points]) with Life’s Essential 8, incorporating evaluations of health behaviors and factors. All-cause mortality and incident non-fatal CVD were recorded from baseline to December 31, 2020. The multi-state life table was adopted to explore the associations of CVH status with total life expectancy and life years lived with and without CVD. Results Six thousand fifty eight cases of incident non-fatal CVD and 10,580 cases of deaths were identified. Men aged 45 years with low, moderate, and high CVH had a life expectancy of 33.0, 36.5 and 38.5 years, of which 7.8 (23.6%), 6.0 (16.3%) and 3.7 years (9.6%) were spent with CVD. For women, the corresponding life expectancy was 36.6, 43.6 and 48.6 years, and the remaining life years lived with CVD were 7.8 (21.3%), 6.0 (13.7%) and 4.5 years (9.3%), respectively. The benefits of high CVH were persistent across lifespan from age 45 to 85 years and consistent when CVH was evaluated with health behaviors and factors alone. Conclusions High CVH compared with low CVH was associated with longer total life expectancy and fewer years spent with CVD, indicating that promoting CVH is of great importance for CVD prevention and healthy ageing in China. Supplementary Information The online version contains supplementary material available at 10.1186/s12889-023-17456-z.


Background
Aging, an inevitable part of life, has acted as one of the most critical determinants of cardiovascular health [1].Despite dramatic improvements in health care and public health education, individuals remain at higher lifetime risk of cardiovascular disease (CVD) in the process of ageing worldwide [2].In China, the prevalence of CVD have substantially increased by 99.8% since 1990 along with longer life expectancy, which led to approximately 10.4 million years lived with disability (YLDs) in 2019 [3].
A series of modifiable cardiovascular risk factors were identified through decades of epidemiological studies, and adherence to a combination of health behaviors and health factors has been proven to be an effective approach to prevent the occurrence of CVD and improve the prognosis [4][5][6].Accordingly, the American Heart Association (AHA) proposed a comprehensive concept of ideal cardiovascular health (CVH) called Life Simple 7 in 2010, and recently proposed its updated version namely Life's Essential 8 (LE8), which was enhanced and expanded to better assess CVH of individuals [7,8].Moreover, in addition to attenuating CVD risks, population-based evidence has also indicated that lifestyle intervention was associated with decreased all-cause mortality and increased life expectancy [9,10].
Consequently, it might be plausible that maintaining ideal CVH could delay CVD to later ages and help individuals with worse health survive longer than they would have in the past, while the overall prevalence and years lived with CVD may not actually alter or even increase.To better translate observed benefits of CVH modifications to public health interventions, it is of great importance to gain more insight into the impact of overall lifestyle intervention on both incident CVD and total life expectancy, with special attention paid to the proportions of remaining years lived with CVD under an expanded lifespan.
Therefore, we conducted a multi-state life table (MSLT) analysis based on the Kailuan cohort involving adults from Northern China to explore the associations of CVH status defined by the new LE8 metrics with total life expectancy and years lived with and without CVD for the middle-aged and elderly men and women independently, aiming to provide evidence for primordial CVD prevention and healthy ageing in China.

Study population
The Kailuan study is a prospective cohort study based on the Kailuan community in Tangshan city, Northern China.Detailed designs of the study were reported in the previous publications [11][12][13].In brief, the recruitment process was initiated by the Kailuan company in 2006, inviting community population aged ≥ 18 years to participated in the baseline survey.During June 2006 to October 2007, a total of 101,510 adults, including 81,110 men and 20,400 women, participated in the baseline survey, and were subsequently followed up each two years until their deaths or the most recent visit finished on December 31, 2020, whichever occurred first.In accordance with the World Health Organization (WHO) definition of the middle-aged and elderly population, we firstly excluded 29,635 participants aged less than 45 years at baseline, and further excluded 6,288 participants with missing data on baseline LE8 metrics.In total, 65,587 participants aged ≥ 45 years were ultimately included in the current analyses (Supplementary Fig. 1).The comparison of baseline characteristics between included and excluded individuals is presented in Supplementary Table 1.

Data collection
Information on demographic characteristics, lifestyle information, history of present illness, and medication usage was collected at baseline and during each biennial follow-up visit with uniformed questionnaires.Habitual dietary intake was collected through asking the frequency of consuming typical food items during the past year.Self-reported time spent on both physical activity and sleep was recorded, as well as the current and former use of cigarettes.In addition, social and economic status, represented by educational levels, household annual income per capita and marital status, was also investigated.Fasting blood samples were drawn for measurements of serum glucose and lipid concentrations.Physical examinations were conducted by trained and certificated local staff.Weights and heights were measured with lightweight clothing and no shoes.Blood pressure measurements were obtained using mercury sphygmomanometers, and the mean of three readings was used in the analyses.

CVH definition
CVH of each participant was assessed with the recently updated LE8 metrics, which included evaluation of both health behavior domain (diet, physical activity, tobacco/ nicotine exposure, and sleep health) and health factor domain (body mass index [BMI], blood lipids, blood glucose, and blood pressure).Detailed definitions and scorings for all eight metrics of CVH were presented in Supplementary Table 2.In short, the score of each metric ranged from the lowest of 0 points to the highest of 100 points, and the overall and domain-specific CVH were accordingly scored as the unweighted average of all included metrics, with the higher score indicating a better CVH.In line with recommendations from the AHA, we further defined CVH status with 80-100 points as high CVH, 50-79 points as moderate CVH, and 0-49 points as low CVH, respectively.

Health states
CVD was defined as a composite of myocardial infarction (MI), atrial fibrillation, heart failure and stroke.More specifically, myocardial infarction was diagnosed based on clinical symptoms, electrocardiography and dynamic changes in levels of cardiac enzyme and other biomarkers [14].Atrial fibrillation was clinically identified with absolutely irregular RR intervals and no discernible, distinct P values [15].Diagnosis of heart failure was confirmed according to clinical symptoms, chest radiography, echocardiography, and electrocardiography [16].Stroke was diagnosed on the basis of neurological signs, clinical symptoms, and neuroimages from computed tomography or magnetic resonance imaging scans [17].
In the current study, health states of participants were classified into three categories (free of CVD, living with CVD, and death), which were dynamically updated during follow-ups from the baseline survey till their deaths or the latest visit.As previously reported, the vital status of participants was identified based on the death certificates from provincial vital statistics offices, and the physician-diagnosed CVD was mainly confirmed through the biennial face-to face interviews [18].As complements, medical records from the Municipal Social Insurance Institution covering the entire Kailuan cohort and discharge summaries from eleven hospitals in the Kailuan community were further gathered and cross-validated, and all potential cases were reviewed and ascertained by the central expert panel who were unaware of the study design.

Statistical analysis
All analyses were conducted separately for men and women.Baseline characteristics were presented as mean (standard deviation [SD]) or frequency (%), as appropriate.The MSLT was adopted to evaluate the associations of CVH status with the total life expectancy and the number of years that participants could expect to live with and without CVD, respectively.Detailed descriptions of MSLT have been presented previously [19,20].In simple terms, the MSLT is a time-inhomogeneous, finitespace, continuous-time Markov model, which characterizes population movement over time in a finite, discrete and mutually exclusive state space as a Markov process.Three health states (free of CVD, living with CVD, and death) were defined, and we thus assumed three possible transitions included from free of CVD to living with CVD, from free of CVD to death, and from living with CVD to death.Backflows were not allowed (e.g., from CVD to free of CVD) and only the first event into a state was considered.The age-specific state-dependent transition probabilities was firstly estimated with multinomial logistic regression, adjusted by educational levels, household annual income per capita and marital status [21].In the analysis of CVH defined with health behaviors alone, health factors were further adjusted and vice versa.Then, with the microsimulation approach, we simulated a cohort of 100 000 people aged 45 years and fitted the survival trajectory of the cohort population with transition probability between different health states calculated based on the MSLT, thus estimating the survival time in different health states of each individual in the cohort from 45 years to death.Ultimately, the mean values of overall survival time as well as the average time living with or free from CVD were calculated as life expectancy and years lived with/without CVD.
To further evaluate the robustness of our findings, sensitivity analyses were conducted by 1) involving timevarying CVH status of LE8 metrics at each visit instead of the baseline CVH status alone; 2) excluding non-fatal cardiovascular events and deaths occurred in the first year.All analyses were performed with SAS version 9.4 (SAS Institute Inc., Cary, NC, USA).The SPACE program was adopted to estimate MSLT functions via microsimulation [22].Tests were two-sided, with the statistical significance set at P < 0.05.

Results
Of all the 65,587 participants included, 53,775 (82.0%) were men and 11,812 (18.0%) were women.With categorical considerations suggested by the AHA, 6,628 (12.3%) of the men were classified into the low CVH status, 44,243 (82.3%) into the moderate CVH status, and 2,904 (5.4%) into the high CVH status.By comparison, the CVH status of women was generally better; the corresponding number (%) of each category was 388(3.3%),9,754(82.6%)and 1,670(14.1%),respectively.Participants with more advantageous CVH scores were older in men while younger in women.In addition, they were less likely to have a history of CVD before baseline, and more likely to be married and of higher socioeconomic status, regardless of gender (Table 1).
Figure 1 presents the association between CVH status of LE8 and risk of incident CVD and all-cause mortality in men and women, and the component-specific results were listed in the Supplementary Fig. 2.During followups from the baseline survey to December 31, 2020, 6,058 cases of incident non-fatal CVD and 10,580 cases of deaths were recorded.High CVH was associated with a significantly decreased risk of incident CVD in both men (odds ratio [OR] 0.32, 95% confidence interval [95%CI] 0.28-0.38)and women (OR 0.29, 95%CI 0.20-0.42), in comparison with those with low CVH.More specifically, the OR (95%CI) for incident CVD of high CVH defined by health behaviors was 0.75(0.65-0.86)for men and 0.70(0.46-1.08)for women, and the corresponding OR(%CI) of CVH status defined by health factors was 0.37 (0.34-0.40) and 0.33(0.27-0.41),respectively.In addition, similar tendencies were also observed for the risk of all-cause mortality, for individuals both living with and without CVD.
The total life expectancy and years lived with and without CVD in men and women are illustrated in Table 2 and Fig. 2. In general, life expectancy at age 45 years was 36.1 years for men, of which 6.2 years, corresponding to 17.2% of total life expectancy, were lived with CVD.For women, the total life expectancy was 43.6 years and 5.8 years (13.4%) were lived with CVD.Compared with individuals with low CVH, remarkable longer total life expectancy and shortened years lived with CVD were observed for those with moderate and high CVH.Life expectancy at age 45 years of low, moderate, and high CVH status was 33.0 years, 36.5 years and 38.5 years in men and 36.6 years, 43.6 years, and 48.6 years in women, respectively.By contrast, the corresponding years lived with CVD, at age 45 years, decreased from 7.8 years to 3.7 years in men and from 7.8 years to 4.5 years in women.When further classified by initial health states, high CVH was related to both improved life expectancy and declined years lived with CVD among individuals without CVD; while for those with CVD, high CVH was found to be associated with longer life years spent with CVD (Supplementary Table 3).
Moreover, the benefits of high CVH were observed to be persistent across the lifespan (Fig. 3, Supplementary Table 4, Supplementary Table 5).For instance, women with low, moderate, and high CVH at age 45 years spent 21.3%,13.7%and 9.3% of their total life expectancy with CVD, and the corresponding proportions of years lived with CVD at age 85 years were 45.2%, 29.8%, and 18.5%, respectively.Besides, as was shown in Supplementary Table 6-7, the results of sensitivity analyses were generally consistent with primary findings.

Discussion
This prospective population-based cohort study indicated that in comparison with participants with low CVH, maintaining high CVH was associated with longer total life expectancy and fewer years spent with CVD across the lifespan, which contributed to a larger proportion of CVD-free life years.It was estimated that the total life expectancy at age 45 years for men and women with  women) was spent with CVD.Considering the less-thanideal CVH status of the middle-aged and elderly Chinese, [23] our study had a strong practical implication for CVD prevention and healthy ageing in China, providing basis for estimating future healthcare costs and planning for healthcare needs.
High CVH, including adherence to healthy lifestyles and maintenance of ideal cardio-metabolic factors, has long been proved to be associated with decreased risk of incident CVD, which significantly delays the onset of CVD and improves the survival of CVD patients [4,6,24,25].Moreover, it is also recognized as a strong predictor for extended life expectancy [10,26].However, since individuals turn to be more vulnerable to CVD once they reach older ages, it was confusing that whether the benefits of maintaining high CVH could be fully translated into healthy longevity.The present multi-state life expectancy analysis, which considered both CVD morbidity and all-cause mortality, provided further estimates on years spent with and without CVD, respectively.For individuals free from CVD, decreased risks of CVD and mortality were observed to be associated with high CVH, which indicated that the occurrence of CVD could be postponed in older ages and the lifespan could be expanded, together contributing to increased life years lived free from CVD.On the other hand, a decreased risk of mortality was observed for CVD patients with high CVH.In other words, after the occurrence of CVD, more remaining years were expected to be lived if they maintained a high CVH.Furthermore, the benefits of high CVH were persistent across the lifespan from age 45 to 85 years, suggesting that achieving a better CVH status is of great importance for preventing CVD events and pursuing healthy longevity, even for those aged population.Although a series of studies have investigated the association of CVH with risk of CVD and all-cause mortality separately, evidence on life expectancy with and without CVD according to different CVH status, to the best of our knowledge, is still lacking.Most previous publications focused on the relative risk of incident CVD or the remaining life years free of CVD.The project of the Prediction for Atherosclerotic Cardiovascular Disease Risk in China, for instance, has reported a gradient inverse association between the number of ideal CVH metrics assessed with the origin LS7 metrics and the hazard ratio of CVD [23].A previous analysis based on the Kailuan Study, also adopting the LS7 metrics, indicated that life years free from CVD at age 35 years were 38.4,45.0, and 50.3 years in participants with consistently low, moderate, and high CVH, respectively [27].Additionally, several studies further examined the impact of combined lifestyle risk factors on the total life expectancy.The Singapore Chinese Health Study observed that adherence to 4-5 healthy lifestyle factors versus none could achieve a gain of 8.1 years in women and 6.6 years in men for the life expectancy at age 50 years [26].Another study conducted in the U.S. indicated that adherence to 5 lowrisk lifestyle factors could prolong life expectancy at age 50 years by 12.2 and 14.0 years for male and female adults, respectively [10].More relevant, the Rotterdam Study, investigating the effects of lifestyle on life expectancy with and without heart failure, concluded that a healthy overall lifestyle was associated with a longer total life expectancy and years lived without heart failure [20].Our findings were generally consistent with the abovementioned studies, and we further provided more comprehensive evidence that a high CVH may improve not only total life expectancy but also life years without CVD.
Even though health behaviors had a strong influence on the major CVD risk factors, we still found significant benefits of ideal health behaviors under adjustment for CVH defined by health factors.These findings indicated that the protection afforded by health behaviors might involve mechanisms beyond merely optimizing levels of cardio-metabolic factors, which further emphasized the crucial roles of health behaviors for CVD prevention and healthy ageing.Moreover, as for different genders, we observed that women lived longer in general and could gain more total life expectancy through keeping a high CVH than men.The improvements in the proportion of CVD-free life years, however, were similar in men and women.This difference supported the hypothesis that the preventive effect of high CVH on incident CVD might be comparable across genders, while its protection from total deaths seemed to be more remarkable in women.Nevertheless, more research is warranted to further clarify the mechanism of gender differences in the future.
This study has several strengths.First, previous studies more commonly evaluated the association of CVH with life expectancy for individual with or without CVD respectively, [28] or used relatively indirect methods like competing risk adjusted Cox proportional hazards functions or penalized spline model combined with Irwin restricted mean [29,30].With the use of MSLT, the influences of high CVH on both morbidity (incident CVD) and mortality (life expectancy) were simultaneously considered in the current analysis, which provided a more intuitive and comprehensive estimates of potential benefits from maintaining ideal CVH status.Secondly, most existing studies investigated the impact of lifestyle factors on life expectancy at an old age [31].Our current study expanded previous findings to support benefits of starting a healthy lifestyle early at a younger age and further explored the association between CVH status and CVD incidence and mortality across different age stages.Thirdly, our study adopted the latest LE8 definition of CVH, which was more comprehensive than previous studies, considering both health behaviors and health factors [9].And we modified some definitions of LE8 components to obtain conclusions more suitable for the Chinese population.For instance, we used the Chinese criteria of BMI with lower cutting-off values instead of the WHO criteria, since Asians generally had a higher percentage of body fat than white people of the same age, sex, and BMI.Other strengths included the prospective cohort design, the large sample size, and the long-term follow-up.
However, there were also several limitations to be acknowledged.Firstly, information on lifestyle like diet and physical activity was self-reported, which may potentially suffer from misclassification and residual confounding, leading to imprecise estimates.Given the consistency of our primary results with time-varying sensitivity analysis and previous publications, we believe that our findings were valid and reliable in general.Secondly, other crucial CVD risk factors like psychological status and genetic predisposition were not evaluated due to lack of data.More evidence on the potential effects of psychological health as well as genetic susceptibility is urgently needed.Additionally, given the fact that the Kailuan study only reflected the incidence and mortality of specific cohort population over a certain follow-up period, the absolute value of life-years estimated in our study might not be a representative statistic for the current China.Nevertheless, the potential benefits of high CVH on life expectancy and years lived with/without CVD observed in the current analysis could still be generalized to other population, since the association between CVH and life expectancy were less likely to be distorted by the distributions of CVH risk factors.

Conclusions
The present study indicated that maintaining a high CVH was related to not only longer total life expectancy but also more remaining life years lived free of CVD in the middle-aged and elderly men and women, which provided support for promoting CVH as an important strategy for CVD prevention and healthy ageing in China.
• fast, convenient online submission • thorough peer review by experienced researchers in your field • rapid publication on acceptance • support for research data, including large and complex data types • gold Open Access which fosters wider collaboration and increased citations maximum visibility for your research: over 100M website views per year

•
At BMC, research is always in progress.

Learn more biomedcentral.com/submissions
Ready to submit your research Ready to submit your research ?Choose BMC and benefit from: ? Choose BMC and benefit from:

Fig. 1
Fig. 1 Associations between CVH Status of LE8 and risk of incident CVD and all-cause mortality in men and women.Abbreviations: CVD Cardiovascular disease, CVH cardiovascular health, LE8 Life's Essential 8, OR (95%CI) Odds ratio (95% confidence interval)

Fig. 3
Fig. 3 Proportion of years lived with CVD at a given age from 45 to 85 years by CVH Status of LE8 in men and women.Proportion is computed by dividing years lived with CVD by total life expectancy at a given age from 45 to 85 years.Abbreviations: CVD Cardiovascular disease, CVH Cardiovascular health, LE8 Life's Essential 8

Table 1
Baseline characteristics of women and men in Kailuan population by CVH Status of LE8 Abbreviations: BMI Body mass index, BP Blood pressure, CNY Chinese yuan, CVD Cardiovascular disease, CVH Cardiovascular health, HDL High-density lipoprotein, LE8 Life's Essential 8; SD, standard deviation Values were represented by mean (SD) for continuous variables and frequency (%) for categorical variables low CVH in the Kailuan cohort was 33.0 and 36.6 years, of which 23.6% and 21.3% were spent with CVD.For those with moderate and high CVH, lifespan was expanded (36.5 years and 38.5 years for men; 43.6 years and 48.6 years for women) and less of their remaining life expectancy (16.3% and 9.6% for men; 13.7% and 9.3% for

Table 2
Life expectancy and years lived with or without CVD at age 45 years by CVH Status of LE8 Abbreviations: CVD Cardiovascular disease, CVH Cardiovascular health, LE8 Life's Essential 8 Life and years lived with or without CVD at a given age from 45 to 85 years by CVH Status of LE8 in men and women.Abbreviations: CVD Cardiovascular disease, CVH Cardiovascular health, LE8 Life's Essential 8